/*
 * vic-cycle.c - Cycle based VIC-I emulation.
 *
 * Written by
 *  Hannu Nuotio <hannu.nuotio@tut.fi>
 *
 * Based on code by
 *  Ettore Perazzoli <ettore@comm2000.it>
 *  Andreas Matthies <andreas.matthies@gmx.net>
 *  Daniel Kahlin <daniel@kahlin.net>
 *
 * This file is part of VICE, the Versatile Commodore Emulator.
 * See README for copyright notice.
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
 *  02111-1307  USA.
 *
 */

#include "vice.h"

#include "maincpu.h"
#include "mem.h"
#include "raster.h"
#include "raster-canvas.h"
#include "types.h"
#include "vic.h"
#include "victypes.h"
#include "vic20-resources.h"
#include "vic20mem.h"
#include "vic20memrom.h"
#include "vic20.h"
#include "vic20via.h"
#include "videoarch.h"
#include "viewport.h"

#include "vic-cycle.h"


/* ------------------------------------------------------------------------- */

/* Close vertical flipflop */
static inline void vic_cycle_close_v(void)
{
    vic.area = VIC_AREA_DONE;
    vic.raster.display_ystop = vic.raster_line;

    /* Display one more line if h-flipflop is already open (XPOS == 0) */
    if (vic.fetch_state != VIC_FETCH_IDLE) {
        vic.raster.display_ystop++;
    }
}

/* Open vertical flipflop */
static inline void vic_cycle_open_v(void)
{
    vic.area = VIC_AREA_PENDING;
    vic.raster.display_ystart = vic.raster_line;
    vic.raster.geometry->gfx_position.y = vic.raster_line;

    if (vic.text_lines == 0) {
        vic_cycle_close_v();
    } else {
        if (vic.screen_height == VIC20_NTSC_SCREEN_LINES) {
            vic.raster.display_ystop = vic.screen_height;
        } else {
            vic.raster.display_ystop = vic.screen_height - 1;
        }
    }
}

/* Open horizontal flipflop */
static inline void vic_cycle_open_h(void)
{
    int xstart;

    xstart = MIN((unsigned int)(vic.raster_cycle * 4), vic.screen_width);
    xstart *= VIC_PIXEL_WIDTH;

    vic.raster.display_xstart = xstart;
    vic.raster.geometry->gfx_position.x = xstart;

    vic.fetch_state = VIC_FETCH_START;
    /* buf_offset used as delay counter before first matrix fetch */
    /* TODO why is this needed? */
    vic.buf_offset = 4;

    if (vic.area == VIC_AREA_PENDING) {
        vic.raster.display_ystart = vic.raster_line;
        vic.raster.geometry->gfx_position.y = vic.raster_line;
        vic.area = VIC_AREA_DISPLAY;
    }

    vic.memptr_inc = 0;

    /* Update text cols early. This is needed to handle
       memptr updates properly when XPOS == 0 and COLS == 0
       is used to avoid memptr increases. */
    vic.text_cols = vic.pending_text_cols;
}

/* Close horizontal flipflop */
static inline void vic_cycle_close_h(void)
{
    vic.fetch_state = VIC_FETCH_DONE;
}

/* Start the actual fetch */
static inline void vic_cycle_start_fetch(void)
{
    int xstop;

    vic.text_cols = vic.pending_text_cols;
    vic.raster.geometry->gfx_size.width = vic.text_cols * 8 * VIC_PIXEL_WIDTH;
    vic.raster.geometry->text_size.width = vic.text_cols;

    xstop = vic.raster.display_xstart / VIC_PIXEL_WIDTH + vic.text_cols * 8;

    if (xstop >= (int)vic.screen_width) {
        xstop = vic.screen_width - 1;
        /* FIXME: SCREEN-MIXUP not handled */
    }

    xstop *= VIC_PIXEL_WIDTH;

    vic.raster.display_xstop = xstop;

    if (vic.text_cols > 0) {
        vic.raster.blank_this_line = 0;
        vic.fetch_state = VIC_FETCH_MATRIX;
    } else {
        vic_cycle_close_h();
    }
}

/* Handle end of line */
static inline void vic_cycle_end_of_line(void)
{
    vic.line_was_blank = vic.raster.blank_this_line;

    vic.raster_cycle = 0;
    vic_raster_draw_handler();

    if (vic.area == VIC_AREA_DISPLAY) {
        vic.raster.ycounter++;
    }

    vic.fetch_state = VIC_FETCH_IDLE;
    vic.raster.blank_this_line = 1;
    vic.raster_line++;
}

/* Handle end of frame */
static inline void vic_cycle_end_of_frame(void)
{
    /* Close v-flipflop on end of frame */
    if (vic.area != VIC_AREA_DONE) {
        vic_cycle_close_v();
        vic.raster.display_ystop = vic.raster_line - 1;
    }

    vic.raster.blank_enabled = 1;
    vic.raster.blank = 0;
    vic.row_counter = 0;
    vic.raster_line = 0;
    vic.area = VIC_AREA_IDLE;
    vic.raster.display_ystart = -1;
    vic.raster.display_ystop = -1;
    vic.raster.ycounter = 0;
    vic.memptr = 0;
    vic.memptr_inc = 0;
    vic.framestart_cycle = maincpu_clk;
}

/* Handle memptr increase */
static inline void vic_cycle_handle_memptr(void)
{
    /* check if row step is pending */
    if (vic.row_increase_line == (unsigned int)vic.raster.ycounter
        || 2 * vic.row_increase_line == (unsigned int)vic.raster.ycounter) {
        vic.raster.ycounter = 0;

        vic.memptr_inc = vic.line_was_blank ? 0 : vic.text_cols;

        vic.row_counter++;
        if (vic.row_counter == vic.text_lines) {
            vic_cycle_close_v();
        }
    }

    vic.memptr += vic.memptr_inc;
    vic.memptr_inc = 0;
}

/* Latch number of columns */
static inline void vic_cycle_latch_columns(void)
{
    vic.pending_text_cols = MIN(vic.regs[2] & 0x7f, (int)vic.max_text_cols);
}

/* Latch number of rows */
static inline void vic_cycle_latch_rows(void)
{
    int new_text_lines = (vic.regs[3] & 0x7e) >> 1;
    vic.text_lines = new_text_lines;
    vic.raster.geometry->gfx_size.height = new_text_lines * 8;
    vic.raster.geometry->text_size.height = new_text_lines;
}

/* ------------------------------------------------------------------------- */
/* Fetch hendling */

/* Perform actual fetch */
static inline uint8_t vic_cycle_do_fetch(int addr, uint8_t *color)
{
    uint8_t b, c;
    int color_addr = 0x9400 + (addr & 0x3ff);
    int color_addr2 = (addr & 0x03ff) | (vic20_vflihack_userport << 10);

    if ((addr & 0x9000) == 0x8000) {
        /* chargen */
        b = vic20memrom_chargen_rom[addr & 0xfff];
        c = vflimod_enabled ? vfli_ram[color_addr2] : mem_ram[color_addr];
    } else if ((addr < 0x0400) || ((addr >= 0x1000) && (addr < 0x2000))) {
        /* RAM */
        b = mem_ram[addr];
        c = vflimod_enabled ? vfli_ram[color_addr2] : mem_ram[color_addr];
    } else if (vflimod_enabled && (addr >= 0x0400) && (addr < 0x1000)) {
        /* only for mike's VFLI hack */
        /* RAM */
        b = mem_ram[addr];
        c = vfli_ram[color_addr2];
    } else if (addr >= 0x9400 && addr < 0x9800) {
        /* color RAM */
        b = vflimod_enabled ? vfli_ram[color_addr2] : mem_ram[color_addr];
        c = b; /* FIXME is this correct? */
    } else {
        /* unconnected */
        b = vic20_v_bus_last_data & (0xf0 | vic20_v_bus_last_high);
        c = vflimod_enabled ? vfli_ram[color_addr2] : mem_ram[color_addr]; /* FIXME: is this correct? */
    }
    *color = vic20_v_bus_last_high = c;
    vic20_v_bus_last_data = b;

    return b;
}

/* Perform no fetch */
static inline void vic_cycle_no_fetch(void)
{
    /* TODO: vic20_v_bus_last_high = ? */
}

/* Make a "real" 16b address from the 14b VIC address */
static inline int vic_cycle_fix_addr(int addr)
{
    int msb = ~((addr & 0x2000) << 2) & 0x8000;
    return (addr & 0x1fff) | msb;
}

/* Fetch handler */
static inline void vic_cycle_fetch(void)
{
    int addr;
    uint8_t b;

    switch (vic.fetch_state) {
        /* fetch has not started yet */
        case VIC_FETCH_IDLE:
        /* fetch done on current line */
        case VIC_FETCH_DONE:
        default:
            vic_cycle_no_fetch();
            break;

        /* fetch starting */
        case VIC_FETCH_START:
            if ((--vic.buf_offset) == 0) {
                vic_cycle_start_fetch();
            }
            vic_cycle_no_fetch();
            break;

        /* fetch from screen/color memomy */
        case VIC_FETCH_MATRIX:
            addr = (((vic.regs[5] & 0xf0) << 6) | ((vic.regs[2] & 0x80) << 2))+ ((vic.memptr + vic.buf_offset));

            vic.vbuf = vic_cycle_do_fetch(vic_cycle_fix_addr(addr), &b);
            vic.cbuf[vic.buf_offset] = b;

            vic.fetch_state = VIC_FETCH_CHARGEN;
            break;

        /* fetch from chargen */
        case VIC_FETCH_CHARGEN:
            b = vic.vbuf;
            addr = ((vic.regs[5] & 0xf) << 10) + ((b * vic.char_height + (vic.raster.ycounter & ((vic.char_height >> 1) | 7))));

            vic.gbuf[vic.buf_offset] = vic_cycle_do_fetch(vic_cycle_fix_addr(addr), &b);

            vic.buf_offset++;

            if (vic.raster.ycounter == (vic.char_height - 1)) {
                /* TODO should this be vic.memptr_inc++ instead? */
                vic.memptr_inc = vic.buf_offset;
            }

            if (vic.buf_offset >= vic.text_cols) {
                vic_cycle_close_h();
            } else {
                vic.fetch_state = VIC_FETCH_MATRIX;
            }
            break;
    }
}

/* ------------------------------------------------------------------------- */
void vic_cycle(void)
{
    int interlace_enable_flag;

    if (vic.area == VIC_AREA_IDLE) {
        /* Check for vertical flipflop */
        if (vic.regs[1] == (vic.raster_line >> 1)) {
            vic_cycle_open_v();
        }
    }

    /* Next cycle */
    vic.raster_cycle++;

    interlace_enable_flag = (vic.cycles_per_line == VIC20_NTSC_CYCLES_PER_LINE) ? (vic.regs[0] & 0x80) >> 7 : 0;

    if (vic.interlace_enabled) {
        /* FIXME: this is really not what happens. in reality the last line of the
                  second field plus the first line of the first field add up to one
                  additional line. currently this is fixed up later in vic_read_rasterline
        */
        /* interlace */
        if (vic.interlace_field == 0) {
            if (vic.raster_cycle == vic.cycles_per_line) {
                vic_cycle_end_of_line();
                if (vic.raster_line >= vic.screen_height) {
                    vic.interlace_field = 1;
                    vic.raster.canvas->videoconfig->interlaced = 1;
                    vic.raster.canvas->videoconfig->interlace_field = 1;
                    vic.screen_height = VIC20_NTSC_INTERLACE_FIELD2_SCREEN_LINES;
                    vic.raster.geometry->screen_size.height = vic.screen_height;
                    vic_cycle_end_of_frame();
                    if (!interlace_enable_flag) {
                        vic.interlace_enabled = 0;
                    }
                }
            }
        } else {
            if (vic.raster_cycle == vic.cycles_per_line) {
                vic_cycle_end_of_line();
                if (vic.raster_line >= vic.screen_height) {
                    vic.interlace_field = 0;
                    vic.raster.canvas->videoconfig->interlaced = 1;
                    vic.raster.canvas->videoconfig->interlace_field = 0;
                    vic.screen_height = VIC20_NTSC_INTERLACE_FIELD1_SCREEN_LINES;
                    vic.raster.geometry->screen_size.height = vic.screen_height;
                    vic_cycle_end_of_frame();
                    if (!interlace_enable_flag) {
                        vic.interlace_enabled = 0;
                    }
                }
            }
        }

        if (!vic.interlace_enabled) {
            vic.interlace_field = 0;
            vic.raster.canvas->videoconfig->interlaced = 0;
            vic.raster.canvas->videoconfig->interlace_field = 0;
            vic.screen_height = VIC20_NTSC_SCREEN_LINES;
            vic.raster.geometry->screen_size.height = vic.screen_height;
        }

    } else {
        /* no interlace */
        if (vic.raster_cycle == vic.cycles_per_line) {
            vic_cycle_end_of_line();
            if (vic.raster_line >= vic.screen_height) {
                /* disable interlace if it was enabled */
                if ((vic.cycles_per_line == VIC20_NTSC_CYCLES_PER_LINE) &&
                    (vic.raster.canvas->videoconfig->interlaced == 1)) {
                    vic.interlace_field = 0;
                    vic.raster.canvas->videoconfig->interlaced = 0;
                    vic.raster.canvas->videoconfig->interlace_field = 0;
                    vic.screen_height = VIC20_NTSC_SCREEN_LINES;
                    vic.raster.geometry->screen_size.height = vic.screen_height;
                }
                vic_cycle_end_of_frame();
                if (interlace_enable_flag) {
                    vic.interlace_enabled = 1;
                    vic.interlace_field = 0;
                    vic.raster.canvas->videoconfig->interlaced = 1;
                    vic.raster.canvas->videoconfig->interlace_field = 0;
                    vic.screen_height = VIC20_NTSC_INTERLACE_FIELD1_SCREEN_LINES;
                    vic.raster.geometry->screen_size.height = vic.screen_height;
                }
            }
        }
    }

    if ((vic.area == VIC_AREA_DISPLAY) || (vic.area == VIC_AREA_PENDING)) {
        /* Check for horizontal flipflop */
        if ((vic.fetch_state == VIC_FETCH_IDLE) && (vic.regs[0] & 0x7fu) == vic.raster_cycle) {
            vic_cycle_open_h();
        }

        /* Handle memptr */
        if ((vic.area == VIC_AREA_DISPLAY) && (vic.raster_cycle == 0)) {
            vic_cycle_handle_memptr();
        }
    }

    if (vic.raster_line == 0) {
        /* Retrigger light pen if line is still held low */
        if (vic.raster_cycle == 1) {
            vic.light_pen.triggered = 0;

            if (vic.light_pen.state) {
                vic.light_pen.trigger_cycle = maincpu_clk + 1;
            }
        }

        /* Latch number of rows */
        if (vic.raster_cycle == 2) {
            vic_cycle_latch_rows();
        }
    }

    /* Latch number of columns */
    if (vic.raster_cycle == 1) {
        vic_cycle_latch_columns();
    }

    /* trigger light pen if scheduled */
    if (vic.light_pen.trigger_cycle == maincpu_clk) {
        vic_trigger_light_pen_internal(0);
    }

    /* Perform fetch */
    vic_cycle_fetch();
}
